Add to ORKGThe coupled hydrodynamic equations governing equatorial flows applicable to inviscid disc accretion in the Schwarzschild metric are solved analytically and numerically. Here, we concentrate on the transonic solutions, that represent physically allowed accretion on to black holes. A polytropic equation linking gas pressure and density is assumed, and solutions are obtained for different conditions, such as isothermal and adiabatic gas flows. The dependence of those solutions on the angular momentum is explored. Under certain conditions, when there exist multiple possible sonic points, the numerical simulation automatically zeros in to the unique transonic solution passing through one of the sonic points
A number of "modified" Newtonian potentials of various forms are available in the literature which a...
WOS: 000237568000002The 2D time dependent solution of thin accretion disk in a close binary system h...
The influence of a linearized perturbation on stationary inflow solutions in an inviscid and thin ac...
The coupled hydrodynamic equations governing equatorial flows applicable to inviscid disc accretion ...
For inviscid, rotational accretion flows, both isothermal and polytropic, a simple dynamical systems...
For inviscid, rotational accretion flows driven by a general pseudo-Newtonian potential on to a Schw...
In this paper we have solved the hydrodynamic equations governing the spherically symmetric isotherm...
In this work we would like to address the issue of shock formation in black hole accretion discs. We...
Multi-transonic accretion for a spinning black hole has been compared among different disc geometrie...
We formulate and solve the equations governing the transonic behaviour of a general relativistic bla...
Accretion onto a black hole must be transonic. For a stationary, adiabatic flow the specific energy...
Gas falling quasi-spherically onto a Schwarzschild black hole can form an inner thin accretion disc ...
For inviscid, rotational accretion ows, both isothermal and polytropic, a simple dy-namical systems...
We investigated the instability of advective accretion flow as a consequence of angular momentum tra...
The stationary spherically symmetric accretion flow in the Schwarzschild metric has been set up as a...
A number of "modified" Newtonian potentials of various forms are available in the literature which a...
WOS: 000237568000002The 2D time dependent solution of thin accretion disk in a close binary system h...
The influence of a linearized perturbation on stationary inflow solutions in an inviscid and thin ac...
The coupled hydrodynamic equations governing equatorial flows applicable to inviscid disc accretion ...
For inviscid, rotational accretion flows, both isothermal and polytropic, a simple dynamical systems...
For inviscid, rotational accretion flows driven by a general pseudo-Newtonian potential on to a Schw...
In this paper we have solved the hydrodynamic equations governing the spherically symmetric isotherm...
In this work we would like to address the issue of shock formation in black hole accretion discs. We...
Multi-transonic accretion for a spinning black hole has been compared among different disc geometrie...
We formulate and solve the equations governing the transonic behaviour of a general relativistic bla...
Accretion onto a black hole must be transonic. For a stationary, adiabatic flow the specific energy...
Gas falling quasi-spherically onto a Schwarzschild black hole can form an inner thin accretion disc ...
For inviscid, rotational accretion ows, both isothermal and polytropic, a simple dy-namical systems...
We investigated the instability of advective accretion flow as a consequence of angular momentum tra...
The stationary spherically symmetric accretion flow in the Schwarzschild metric has been set up as a...
A number of "modified" Newtonian potentials of various forms are available in the literature which a...
WOS: 000237568000002The 2D time dependent solution of thin accretion disk in a close binary system h...
The influence of a linearized perturbation on stationary inflow solutions in an inviscid and thin ac...